irreversibility analysis and numerical simulation in a finned-tube heat exchanger equipped with block shape vortex generator
نویسندگان
چکیده
in this paper the effect of block shape vortex generators (vgs) on an air-water fin-tube heat exchanger has been studied experimentally using exergy analysis method. also the effect of these vgs on increasing heat transfer rate has been simulated numerically and the results show a good agreement with the experiments. in this research we used a wind tunnel to produce wind flow over heat exchanger in the range of 0.054 kg/s to 0.069 kg/s . hot water was circulating with the steady volume flow rate of 240 l/h and the temperature of 44 to 68 centigrade in the system. these experiments have been repeated with and without vgs on the heat exchanger. results show using the vgs has reduced air side irreversibility to heat transfer ratio (asihr). to reveal the effect of vgs on heat exchanger performance with respect to reducing asihr, a quantity is used namely performance of vortex generator (pvg). the results represent that pvg values are in the range of less than 15% to over 35% which represents the good effects of vgs on the heat exchanger performance.
منابع مشابه
Numerical Studies on the Performance of Finned-Tube Heat Exchanger
Finned-tube heat exchangers are predominantly used in space conditioning systems, as well as other applications requiring heat exchange between two fluids. The design of finned-tube heat exchangers requires the selection of over a dozen design parameters by the designer such as tube pitch, tube diameter, tube thickness, etc... Finned-tube heat exchangers are common devices; however, their perfo...
متن کاملMinimization of Entransy Dissipations of a Finned Shell and Tube Heat Exchanger
Improving heat transfer and performance in a radial, finned, shell and tube heat exchanger is studied in this study. According to the second law of thermodynamics, the most irreversibilities of convective heat transfer processes are due to fluid friction and heat transfer via finite temperature difference. Entransy dissipations are due to the irreversibilities of convective heat transfer. There...
متن کاملOptimization of Finned-Tube Heat Exchanger with Minimizing the Entropy Production rate
A compact fin-tube heat exchanger is used to transfer current fluid heat inside the tubes into the air outside. In this study, entropy production and optimized Reynolds number for finned-tube heat exchangers based on the minimum entropy production have been investigated. As a result, the total entropy of compact heat exchangers, which is the summation of the production rate of fluid entropy ins...
متن کاملnumerical simulation of nanofluid turbulent flow in double pipe heat exchanger equipped with circular fins
0
متن کاملEffective Heat Transfer Enhancement in Finned Tube Heat Exchanger with Different Fin Profiles
During cross flow in a heat exchanger, heat transfer in the front portion of the tube is more compared to back portion of the tube. This is due to less formation of vortices at the backside of the tube. For uniform heat transfer to take place throughout the tube, it is necessary to increase the vortex formation at the rear side of the tube. The aim of this study is to explore the possibilities ...
متن کاملA numerical investigation of γ-Al2O3-water nanofluids heat transfer and pressure drop in a shell and tube heat exchanger
The effect of γ-Al2O3 nanoparticles on heat transfer rate, baffle spacing and pressure drop in the shell side of small shell and tube heat exchangers was investigated numerically under turbulent regime. γ-Al2O3-water nanofluids and pure water were used in the shell side and the tube side of heat exchangers, respectively. Since the properties of γ-Al2O3-water nanofluids were variable, they were ...
متن کاملمنابع من
با ذخیره ی این منبع در منابع من، دسترسی به آن را برای استفاده های بعدی آسان تر کنید
عنوان ژورنال:
international journal of advanced design and manufacturing technologyجلد ۸، شماره ۱، صفحات ۹۷-۱۰۶
کلمات کلیدی
میزبانی شده توسط پلتفرم ابری doprax.com
copyright © 2015-2023